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Data Visualization in Molecular Biology Alexander Lex July 29, 2013.

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Presentation on theme: "Data Visualization in Molecular Biology Alexander Lex July 29, 2013."— Presentation transcript:

1 Data Visualization in Molecular Biology Alexander Lex July 29, 2013

2 research requires understanding data but there is so much of it… 2

3 What is important? Where are the connections? 3

4 4 methylation levels mRNA expression copy number status mutation status microRNA expression clinical parameters pathways protein expression sequencing data publications

5 Data Visualization … makes the data accessible … combines strengths of humans and computers … enables insight … communicates 5

6 6

7 Cancer Subtype Analysis 7

8 Pathways & Experimental Data 8

9 Managing Pathways & Cross-Pathway Analysis 9

10 Who am I? PostDoc @ Harvard, Hanspeter Pfister’s Group PhD from TU Graz, Austria Co-leader of Caleydo Project 10

11 What is Caleydo? Software analyzing molecular biology data Software for doing research in visualization developed in academic setting platform for trying out radically new visualization ideas Quest for compromise between academic prototyping and ready-to-use software 11

12 What is Caleydo? Open source platform for developing visualization and data analysis techniques easily extendible due to plug-in architecture you can create your own views you can plug-in your own algorithms 12

13 The Team Marc Streit Johannes Kepler University Linz, AT Christian Partl Graz University of Technology, AT Samuel Gratzl Johannes Kepler University Linz, AT Nils Gehlenborg Harvard Medical School, Boston, USA Dieter Schmalstieg Graz University of Technology, AT Hanspeter Pfister Harvard University, Cambridge, USA 13

14 Caleydo StratomeX 14

15 Cancer Subtypes Cancer types are not homogeneous They are divided into Subtypes different histology different molecular alterations Subtypes have serious implications different treatment for subtypes prognosis varies between subtypes 15

16 Cancer Subtype Analysis Done using many different types of data, for large numbers of patients. 16

17 17 Large-scale project to catalogue genetic mutations responsible for cancer 20 tumor types 500 patient samples each Extensive molecular profiling for each patient

18 Goal: Support tumor subtype characterization through Integrative visual analysis of cancer genomics data sets. 18

19 Stratification Patients Tabular Data Candidate Subtypes Genes, Proteins, etc. 19

20 Stratification of a Single Dataset Cluster A1 Cluster A2 Cluster A3 20 Subtypes are identified by stratifying datasets, e.g., based on an expression pattern a mutation status a copy number alteration a combination of these

21 21 Patients Genes Candidate Subtype / Heat Map Header / Summary of whole Stratification

22 Stratification of Multiple Datasets 22 Cluster A1 Cluster A2 Cluster A3 B1 B2 Tabular e.g., mRNA Categorical, e.g., mutation status

23 Stratification of Multiple Datasets Cluster A1 Cluster A2 Cluster A3 B1 B2 Tabular e.g., mRNA Categorical, e.g., mutation status 23

24 24 Clustering of mRNA Data Stratification on Copy Number Status

25 Stratification of Multiple Datasets Cluster A1 Cluster A2 Cluster A3 B1 B2 Tabular e.g., mRNA Categorical, e.g., mutation status 25

26 Stratification of Multiple Datasets Cluster A1 Cluster A2 Cluster A3 B1 B2 Dependent Data, e.g. clinical data Dep. C1 Dep. C2 Tabular e.g., mRNA Categorical, e.g., mutation status 26

27 27 Survival data in Kaplan Meier plots

28 28 Detail View

29 29 Dependent Pathway

30 30

31 31 Stratification based on clinical variable (gender)

32 How to Choose Stratifications? ~ 15 clusterings per matrix ~ 15,000 stratifications for copy number & mutations ~ 500 pathways ~ 20 clinical variables Calculating scores for matches Ranking the results 32

33 33 Query columnResult column Ranked Stratifications Considered Datasets

34 Algorithms for finding.. … matching stratification … matching subtype … mutual exclusivity … relevant pathway … stratification with significant effect in survival … high/low structural variation 34

35 35 Live-Demo! http://stratomex.caleydo.org

36 Caleydo enRoute 36

37 Experimental Data and Pathways Cannot account for variation found in real-world data Branches can be (in)activated due to mutation, changed gene expression, modulation due to drug treatment, etc. 37

38 Why use Visualization? Efficient communication of information A-3.4 B 2.8 C3.1 D-3 E0.5 F0.3 C B D F A E 38

39 Experimental Data and Pathways [Lindroos2002] [KEGG] 39

40 Five Requirements Ideal visualization technique addresses all Talking about 3 today 40

41 R I: Data Scale Large number of experiments Large datasets have more than 500 experiments Multiple groups/conditions 41

42 R II: Data Heterogeneity Different types of data, e.g., mRNA expression numerical mutation status categorical copy number variation ordered categorical metabolite concentration numerical Require different visualization techniques 42

43 R V: Supporting Multiple Tasks Two central tasks: Explore topology of pathway Explore the attributes of the nodes (experimental data) Need to support both! 43 C B D F A E

44 Pathway View A E C B D F C B D F A E enRoute View Concept Group 1 Dataset 1 Group 2 Dataset 1 Group 1 Dataset 2 B C F A D E 44

45 Pathway View On-Node Mapping Path highlighting with Bubble Sets [Collins2009] IGF-1 lowhigh 45

46 enRoute View 46 Group 1 Dataset 1 Group 2 Dataset 1 Group 1 Dataset 2 B C F A D E Path Representation

47 enRoute View 47 Group 1 Dataset 1 Group 2 Dataset 1 Group 1 Dataset 2 B C F A D E Experimental Data Representation

48 Gene Expression Data (Numerical) Copy Number Data (Ordered Categorical) Mutation Data 48

49 enRoute View – Putting All Together 49

50 CCLE Cell lines & Cancer Drugs 50 Analysis by Anne Mai Wasserman

51 Collaboration with AM Wassermann, M Borowsky, M Glick @NIBR 51

52 Pathways Partitioning in pathways is artificial Purpose: reduce complexity “Relevant” subset of nodes and edge Makes it hard to understand cross-talk identify role of nodes in other pathways 52

53 53 [Klukas & Schreiber 2006]

54 Solution: Contextual Subsets 54

55 Solution: Contextual Subsets 55

56 56

57 Levels of Detail 57 Experimental data highlights Thumbnail showing paths

58 How to Select Pathways? Search Pathway Find pathways that contain focus node Find pathway that is similar to another one 58

59 59 Ranked pathway list Datasets Selected Path

60 Integrating enRoute 60

61 61 Video! http://enroute.caleydo.org

62 More Information http://caleydo.org Software, Help, Project Information, Publications, Videos 62

63 Data Visualization In Molecular Biology Alexander Lex, Harvard University alex@seas.harvard.edu http://alexander-lex.com ? 63 Credits: Marc Streit, Nils Gehlenborg, Hanspeter Pfister, Anne Mai Wasserman, Mark Borowsky,, Christian Partl, Denis Kalkofen, Samuel Gratzl, Dieter Schmalstieg

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